Heat insulator

The invention claimed is: 1. A heat insulator, comprising: a fiber layer comprising a nonwoven fabric and silica aerogels, the nonwoven fabric being formed from fibers, the silica aerogels being supported by the nonwoven fabric and existing throughout the nonwoven fabric; at least one support layer comprising polyethylene having a melting point lower than a melting point of the fibers, and disposed on or above at least one surface of the fiber layer; and a combined layer resulting from the at least one support layer welded with the fiber layer, wherein a part of the polyethylene is integrated into the fiber layer and penetrates between the fibers of the nonwoven fabric, wherein the combined layer is not disposed on an entire area between the fiber layer and the at least one support layer, but is disposed in a partial area between the fiber layer and the at least one support layer. 2. The heat insulator according to claim 1 , wherein the heat insulator has an exposed surface where the fiber layer is exposed from the at least one support layer at an end portion of the heat insulator in a planar direction. 3. The heat insulator according to claim 1 , wherein the combined layer exists in a part of an interface between the fiber layer and the at least one support layer. 4. The heat insulator according to claim 2 , wherein the combined layer exists in the exposed surface. 5. The heat insulator according to claim 4 , wherein the combined layer exists in a part of an interface between the fiber layer and the at least one support layer, and wherein the combined layer extends from the exposed surface to a point at a constant length away from the exposed surface in a direction perpendicular to the exposed surface. 6. The heat insulator according to claim 5 , wherein the constant length is a length not greater than a thickness of the heat insulator. 7. The heat insulator according to claim 4 , wherein all or part of the combined layer faces the exposed surface. 8. The heat insulator according to claim 1 , wherein the at least one support layer wraps the fiber layer and is stacked on or above one surface of the fiber layer, and wherein stacked portions of the at least one support layer are welded together to become a welded portion of the at least one support layer. 9. The heat insulator according to claim 1 , wherein the combined layer exists in a planar manner. 10. A heat insulator, comprising: a fiber layer comprising a nonwoven fabric and silica aerogels, the nonwoven fabric being formed from fibers, the silica aerogels being supported by the nonwoven fabric and existing throughout the nonwoven fabric; at least one support layer comprising polyethylene having a melting point lower than a melting point of the fibers, and disposed on or above at least one surface of the fiber layer; and a combined layer resulting from the support layer welded with the fiber layer, wherein a part of the polyethylene is integrated into the fiber layer and penetrates between the fibers of the nonwoven fabric, wherein the support layer wraps the fiber layer and includes a weld portion where end portions of the support layer are welded together, wherein the welded portion exists in a planar manner, wherein the combined layer is not disposed on an entire area between the fiber layer and the at least one support layer, but is disposed in a partial area between the fiber layer and the at least one support layer, and wherein the partial area exists at an end portion of the heat insulator. 11. The heat insulator according to claim 4 , wherein the combined layer exists in a part of an interface between the fiber layer and the at least one support layer, wherein the combined layer has (1) a length extending from a first end of the exposed surface to a second end of the exposed surface, and (2) a width extending in a direction perpendicular to the exposed surface, and wherein the width of the combined layer is (1) same from the first end of the exposed surface to the second end of the exposed surface, and (2) less than a thickness of the heat insulator. 12. A heat insulator, comprising: a fiber layer comprising a nonwoven fabric and silica aerogels, the nonwoven fabric being formed from fibers, the silica aerogels being supported by the nonwoven fabric and existing throughout the nonwoven fabric; at least one support layer comprising polyethylene having a melting point lower than a melting point of the fibers, and disposed on or above at least one surface of the fiber layer; a first combined layer resulting from the at least one support layer welded with the fiber layer, wherein a first part of the polyethylene is integrated into the fiber layer and penetrates between the fibers of the nonwoven fabric, and wherein the first combined layer is disposed in a first partial area between the fiber layer and the at least one support layer; and a second combined layer resulting from the at least one support layer welded with fiber layer, wherein a second part of the polyethylene is integrated into the fiber layer and penetrates between the fibers of the nonwoven fabric, and wherein the second combined layer is disposed in a second partial area between the fiber layer and the at least one support layer, wherein the first combined layer is not disposed on an entire area between the fiber layer and the at least one support layer, but is disposed in the first partial area between the fiber layer and the at least one support layer, and wherein the second combined layer is not disposed on an entire area between the fiber layer and the at least one support layer, but is disposed in the second partial area between the fiber layer and the at least one support layer. 13. The heat insulator according to claim 12 , wherein the first partial area is disposed at one end of the heat insulator and the second partial area is disposed at another end of the heat insulator.